05546nam 2201213z- 450 991055779460332120231214133129.0(CKB)5400000000045442(oapen)https://directory.doabooks.org/handle/20.500.12854/69091(EXLCZ)99540000000004544220202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierCorrosion and Protection of MetalsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (242 p.)3-03943-152-8 3-03943-153-6 Introduction and Scope—During the last few decades, an enormous effort has been made to understand corrosion phenomena and their mechanisms, and to elucidate the causes that dramatically influence the service lifetime of metal materials. The performance of metal materials in aggressive environments is critical for a sustainable society. The failure of the material in service impacts the economy, the environment, health, and society. In this regard, corrosion-based economic losses due to maintenance, repair, and the replacement of existing structures and infrastructure account for up to 4% of gross domestic product (GDP) in well developed countries. One of the biggest issues in corrosion engineering is estimating service lifetime. Corrosion prediction has become very difficult, as there is no direct correlation with service lifetime and experimental lab results, usually as a result of discrepancies between accelerated testing and real corrosion processes. It is of major interest to forecast the impact of corrosion-based losses on society and the global economy, since existing structures and infrastructure are becoming old, and crucial decisions now need to be made to replace them. On the other hand, environmental protocols seek to reduce greenhouse effects. Therefore, low emission policies, in force, establish regulations for the next generation of materials and technologies. Advanced technologies and emergent materials will enable us to get through the next century. Great advances are currently in progress for the development of corrosion-resistant metal materials for different sectors, such as energy, transport, construction, and health. This Special Issue on the corrosion and protection of metals is focused on current trends in corrosion science, engineering, and technology, ranging from fundamental to applied research, thus covering subjects related to corrosion mechanisms and modelling, protection and inhibition processes, and mitigation strategies.History of engineering & technologybicsschigh interstitial alloymolybdenumpitting corrosionpassive filmCu-Mg alloyconformsurface nanocrystallizationcorrosion resistancecorrosionspring steelshot peeningMott-Schottky analysispoint defectalloymagnesiumSEM-EDSEISmass losscorrosion layersduplex stainless steelintergranular corrosionstress corrosion crackingCPTDL-EPRaluminumheat exchangergalvanic corrosionsimulationpolarizationelectrochemical impedance spectroscopyhigh velocity oxy fuel coatingsiron aluminidetitanium carbideatmospheric corrosionstrain measurementmild steelcorrosion productresidual stressAC current densitycrystallographic textureintergranular and transgranular cracksbrassCuZn36Pb2AsCuZn21Si3Pdezincificationsimulated drinking waterlong immersionmortarreinforcementlean duplexstainless steelchloridealkalinitymicrostructureanodic polarizationISO 9223corrosivity categoriespredictive modelsarchipelagic regionsCanary IslandsX70 steelstress corrosion cracking (SCC)slow strain rate tests (SSRT)electrochemical impedance spectroscopy (EIS)cathodic potentialsAtmospheric corrosioncorrosion ratesexposure angleorientation anglecarbon steeldouble loop electrochemical potentiokinetic reactivation (DL−EPR)sensitizationultrasonic nanocrystal surface modification (UNSM)Inconel 718History of engineering & technologyBastidas David Medt1324219Bastidas David MothBOOK9910557794603321Corrosion and Protection of Metals3036063UNINA